Lecture 13 -- Homeostasis

Question 1

Process used to maintain fairly stable conditions necessary for survival in living things

Answer 1

homeostasis definition

Question 2

factor –> pertubation –> sensor –> effector –> negative feedback to factor

Answer 2

main steps in homeostasis

Question 3

• about neutral pH but inside higher than outside (+)
• low outside pH, neutral inside (+)
• high outside pH, neutral/high inside (-)

Answer 3

neutrophiles; acidophiles; alkiphiles

Question 4

• pump protons out

- pump K+ in to maintain electroneutrality

Answer 4

response to cytoplasm that is too acidic

Question 5

• protons brought in via exchange with Na+ or K+
• antiport
• requires Na+ circuit symport of Na+ with another solute

Answer 5

response to cytoplasm that is too basic

Question 6

• use K+ influx, which allows increased proton pumping

- lowering pH not well understood

Answer 6

how to neutrophiles dissipate membrane potential

Question 7

• use Na+/H+ antiporters to bring H+ into the cell

- regenerate Na+ with symport of another solute

Answer 7

how do alkaliphiles keep pH lower than the environment?

Question 8

• keep inward flux of K+ greater than outward flux of H+
• pumps protons against gradient
• small positive potential inside the cell used to do work

Answer 8

how to acidophiles keep pH higher than environment

Question 9

• high solute concentration causes an influx of water

- higher in gram positives than gram negatives (because of peptidoglycan)

Answer 9

turgor pressure

Question 10

turgor pressure goes away and the membrane collapses

becomes metabolically inert

Answer 10

In a high osmolarity environment, what happens?

Question 11

• increase concentrations of osmoprotectants (low toxicity solutes and K+)
• increase concentrations of osmolytes (low toxicity compounds synthesized by cell, low compatibility solutes, glutamate glutamine proline sugars)

lots of K+ –> balance with negatively charged glutamate –> trehalose = electroneutral

Answer 11

What are some adaptations to high-osmolarity environments?

Question 12

• decrease cytoplasmic osmolytes (specific excretion/catabolism –> small molecules can leave easily)
• mechanosensitive channels

Answer 12

How do bacteria adapt to low-osmolarity environments?

Question 13

high turgor pressure –> increased tension in cell membrane –> conformational change in channel –> transiently open –> solutes exit (no specificity)

Answer 13

mechanosensitive channels function

Question 14

• de novo synthesis produces acyl chains to optimize membrane function
• when bacteria are subjected to environmental changes, the structure of fatty acids are altered in response

Answer 14

how does membrane lipid homeostasis work?

Question 15

• adds a cis double bond
• modification happens after product is fully formed
• controlled by regulator sensing temperature

Answer 15

Desaturases (DesA)

Question 16

• converts cis-double bond to cyclopropane (retains cis configuration)
• associated with stationary phase (stabilizing fatty acids, preventing oxidation) (not for fluidity)
• increases resistance to acid

Answer 16

Cyclopropanation (Cfa)

Question 17

• convert cis to trans
• pack more tightly than cis, less tight than saturated
• increases rigidity, decreased permeability to solutes

Answer 17

Cis-trans isomerization (Cti)